Introduce separate version for traced force routine.
This commit is contained in:
parent
557c5e4d3f
commit
3c3d27b48a
3
Makefile
3
Makefile
@ -33,6 +33,9 @@ ifneq ($(NEIGHBORS_LOOP_RUNS),)
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DEFINES += -DNEIGHBORS_LOOP_RUNS=$(NEIGHBORS_LOOP_RUNS)
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endif
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ifeq ($(strip $(PRINT_STATS)),true)
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DEFINES += -DPRINT_STATS
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endif
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ifeq ($(strip $(EXPLICIT_TYPES)),true)
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DEFINES += -DEXPLICIT_TYPES
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endif
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376
asm/unused/force.s
Normal file
376
asm/unused/force.s
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@ -0,0 +1,376 @@
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.intel_syntax noprefix
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.text
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.align 16,0x90
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.globl computeForce
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computeForce:
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# parameter 1: rdi Parameter*
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# parameter 2: rsi Atom*
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# parameter 3: rdx Neighbor*
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push r12
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push r13
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push r14
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# r9d <- atom->Nlocal
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mov r9d, DWORD PTR [4+rsi]
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# xmm2 <- param->cutforce
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vmovsd xmm2, QWORD PTR [72+rdi]
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# xmm1 <- param->sigma6
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vmovsd xmm1, QWORD PTR [8+rdi]
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# xmm0 <- param->epsilon
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vmovsd xmm0, QWORD PTR [rdi]
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# r13 <- atom->fx
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mov r13, QWORD PTR [64+rsi]
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# r14 <- atom->fy
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mov r14, QWORD PTR [72+rsi]
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# rdi <- atom->fz
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mov rdi, QWORD PTR [80+rsi]
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# atom->Nlocal <= 0
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test r9d, r9d
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jle ..B1.30
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..B1.2:
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# r10d <- 0
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xor r10d, r10d
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# ecx <- atom->Nlocal
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mov ecx, r9d
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# r8d <- 0
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xor r8d, r8d
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# r11d <- 1
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mov r11d, 1
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# eax <- 0
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xor eax, eax
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# ecx <- atom->Nlocal >> 1
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shr ecx, 1
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je ..B1.6
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# Init forces to zero loop
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..B1.4:
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# fx[i] <- 0
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mov QWORD PTR [r8+r13], rax
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# i++
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inc r10
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# fy[i] <- 0
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mov QWORD PTR [r8+r14], rax
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# fz[i] <- 0
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mov QWORD PTR [r8+rdi], rax
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# fx[i] <- 0
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mov QWORD PTR [8+r8+r13], rax
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# fy[i] <- 0
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mov QWORD PTR [8+r8+r14], rax
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# fz[i] <- 0
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mov QWORD PTR [8+r8+rdi], rax
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# i++
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add r8, 16
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# i < Nlocal
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cmp r10, rcx
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jb ..B1.4
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..B1.5:
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# r11d <- i * 2 + 1
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lea r11d, DWORD PTR [1+r10+r10]
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..B1.6:
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# r11d <- i * 2
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lea ecx, DWORD PTR [-1+r11]
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# i < Nlocal
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cmp ecx, r9d
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jae ..B1.8
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..B1.7:
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# r11 <- i * 2
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movsxd r11, r11d
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# fx[i] <- 0
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mov QWORD PTR [-8+r13+r11*8], rax
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# fy[i] <- 0
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mov QWORD PTR [-8+r14+r11*8], rax
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# fz[i] <- 0
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mov QWORD PTR [-8+rdi+r11*8], rax
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..B1.8:
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# xmm15 <- cutforcesq
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vmulsd xmm15, xmm2, xmm2
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# r8d <- 0
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xor r8d, r8d
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# ymm18 <- 8
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vmovdqu32 ymm18, YMMWORD PTR .L_2il0floatpacket.0[rip]
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# xmm0 <- 48 * epsilon
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vmulsd xmm0, xmm0, QWORD PTR .L_2il0floatpacket.3[rip]
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# ymm17 <- [0..7]
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vmovdqu32 ymm17, YMMWORD PTR .L_2il0floatpacket.1[rip]
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# zmm7 <- 0.5
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vmovups zmm7, ZMMWORD PTR .L_2il0floatpacket.4[rip]
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# zmm16 <- cutforcesq
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vbroadcastsd zmm16, xmm15
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# zmm15 <- param->sigma6
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vbroadcastsd zmm15, xmm1
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# zmm16 <- 48 * epsilon
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vbroadcastsd zmm14, xmm0
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# r9 <- atom->Nlocal
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movsxd r9, r9d
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# r10d <- 0 (i)
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xor r10d, r10d
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# rcx <- neighbor->numneigh
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mov rcx, QWORD PTR [24+rdx]
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# r11 <- neighbor->neighbors
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mov r11, QWORD PTR [8+rdx]
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# r12 <- neighbor->maxneighs
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movsxd r12, DWORD PTR [16+rdx]
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# rdx <- atom->x
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mov rdx, QWORD PTR [16+rsi]
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# rax <- atom->y
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mov rax, QWORD PTR [24+rsi]
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# rsi <- atom->z
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mov rsi, QWORD PTR [32+rsi]
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# r12 <- neighbor->maxneighs * 4
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shl r12, 2
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# [-32+rsp] <- atom->Nlocal
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mov QWORD PTR [-32+rsp], r9
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# [-24+rsp] <- neighbor->numneigh
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mov QWORD PTR [-24+rsp], rcx
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# [-16+rsp] <- atom->fy
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mov QWORD PTR [-16+rsp], r14
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# [-8+rsp] <- atom->fx
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mov QWORD PTR [-8+rsp], r13
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# [-40+rsp] <- r15
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mov QWORD PTR [-40+rsp], r15
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# [-48+rsp] <- rbx
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mov QWORD PTR [-48+rsp], rbx
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# zmm19 <- 0
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vpxord zmm19, zmm19, zmm19
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# Loop over all atoms
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..B1.9:
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# rcx <- neighbor->numneigh
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mov rcx, QWORD PTR [-24+rsp]
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# xmm25 <- 0
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vxorpd xmm25, xmm25, xmm25
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# xmm20 <- 0
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vmovapd xmm20, xmm25
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# r13d <- neighbor->numneigh[i] (numneighs)
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mov r13d, DWORD PTR [rcx+r10*4]
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# xmm4 <- 0
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vmovapd xmm4, xmm20
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# xmm8 <- atom->x[i]
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vmovsd xmm8, QWORD PTR [rdx+r10*8]
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# xmm9 <- atom->y[i]
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vmovsd xmm9, QWORD PTR [rax+r10*8]
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# xmm9 <- atom->z[i]
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vmovsd xmm10, QWORD PTR [rsi+r10*8]
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# numneighs <= 0
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test r13d, r13d
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jle ..B1.27
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..B1.10:
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# zmm13 <- 0
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vmovaps zmm13, zmm19
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# zmm12 <- 0
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vmovaps zmm12, zmm13
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# zmm11 <- 0
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vmovaps zmm11, zmm12
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# numneighs < 8
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cmp r13d, 8
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jl ..B1.32
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..B1.11:
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# numneighs < 1200
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cmp r13d, 1200
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jl ..B1.31
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..B1.12:
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mov rcx, r12
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imul rcx, r8
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add rcx, r11
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mov r9, rcx
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and r9, 63
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test r9d, 3
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je ..B1.14
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..B1.13:
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xor r9d, r9d
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jmp ..B1.16
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..B1.14:
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test r9d, r9d
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je ..B1.16
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..B1.15:
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neg r9d
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add r9d, 64
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shr r9d, 2
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cmp r13d, r9d
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cmovl r9d, r13d
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..B1.16:
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mov ebx, r13d
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sub ebx, r9d
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and ebx, 7
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neg ebx
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add ebx, r13d
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cmp r9d, 1
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jb ..B1.20
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..B1.20:
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lea ecx, DWORD PTR [8+r9]
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cmp ebx, ecx
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jl ..B1.24
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..B1.21:
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mov rcx, r12
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imul rcx, r8
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vbroadcastsd zmm0, xmm8
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vbroadcastsd zmm1, xmm9
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vbroadcastsd zmm2, xmm10
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movsxd r14, r9d
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add rcx, r11
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..B1.22:
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vpcmpeqb k2, xmm0, xmm0
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add r9d, 8
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vpcmpeqb k1, xmm0, xmm0
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vpcmpeqb k3, xmm0, xmm0
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vmovdqu ymm3, YMMWORD PTR [rcx+r14*4]
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add r14, 8
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vpxord zmm5, zmm5, zmm5
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vpxord zmm4, zmm4, zmm4
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vpxord zmm6, zmm6, zmm6
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vgatherdpd zmm5{k2}, QWORD PTR [rax+ymm3*8]
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vgatherdpd zmm4{k1}, QWORD PTR [rdx+ymm3*8]
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vgatherdpd zmm6{k3}, QWORD PTR [rsi+ymm3*8]
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vsubpd zmm29, zmm1, zmm5
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vsubpd zmm28, zmm0, zmm4
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vsubpd zmm31, zmm2, zmm6
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vmulpd zmm20, zmm29, zmm29
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vfmadd231pd zmm20, zmm28, zmm28
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vfmadd231pd zmm20, zmm31, zmm31
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# if condition cutoff radius
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vrcp14pd zmm27, zmm20 #-> sr2
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vcmppd k5, zmm20, zmm16, 1
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vmulpd zmm22, zmm27, zmm15 #-> sr2 * sigma6
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vmulpd zmm24, zmm27, zmm14 #-> 48.0 * epsilon * sr2
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vmulpd zmm25, zmm27, zmm22 #-> sr2 * sigma6 * sr2
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vmulpd zmm23, zmm27, zmm25 #-> sr2 * sigma6 * sr2 * sr2
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vfmsub213pd zmm27, zmm25, zmm7 #-> sr2 * sigma * sr2 * sr2 - 0.5
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vmulpd zmm26, zmm23, zmm24 #-> 48.0 * epsilon * sr2 * sr2 * sigma6 * sr2
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vmulpd zmm30, zmm26, zmm27 #->
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vfmadd231pd zmm13{k5}, zmm30, zmm28
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vfmadd231pd zmm12{k5}, zmm30, zmm29
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vfmadd231pd zmm11{k5}, zmm30, zmm31
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cmp r9d, ebx
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jb ..B1.22
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#end neighbor loop
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..B1.26:
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vmovups zmm10, ZMMWORD PTR .L_2il0floatpacket.6[rip]
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vpermd zmm0, zmm10, zmm11
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vpermd zmm5, zmm10, zmm12
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vpermd zmm21, zmm10, zmm13
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vaddpd zmm11, zmm0, zmm11
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vaddpd zmm12, zmm5, zmm12
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vaddpd zmm13, zmm21, zmm13
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vpermpd zmm1, zmm11, 78
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vpermpd zmm6, zmm12, 78
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vpermpd zmm22, zmm13, 78
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vaddpd zmm2, zmm11, zmm1
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vaddpd zmm8, zmm12, zmm6
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vaddpd zmm23, zmm13, zmm22
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vpermpd zmm3, zmm2, 177
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vpermpd zmm9, zmm8, 177
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vpermpd zmm24, zmm23, 177
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vaddpd zmm4, zmm2, zmm3
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vaddpd zmm20, zmm8, zmm9
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vaddpd zmm25, zmm23, zmm24
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#exit function
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..B1.27:
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mov rcx, QWORD PTR [-8+rsp] #84.9[spill]
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mov rbx, QWORD PTR [-16+rsp] #85.9[spill]
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movsxd r8, r10d #55.32
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inc r8 #55.32
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vaddsd xmm0, xmm25, QWORD PTR [rcx+r10*8] #84.9
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vmovsd QWORD PTR [rcx+r10*8], xmm0 #84.9
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vaddsd xmm1, xmm20, QWORD PTR [rbx+r10*8] #85.9
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vmovsd QWORD PTR [rbx+r10*8], xmm1 #85.9
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vaddsd xmm2, xmm4, QWORD PTR [rdi+r10*8] #86.9
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vmovsd QWORD PTR [rdi+r10*8], xmm2 #86.9
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inc r10 #55.5
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cmp r10, QWORD PTR [-32+rsp] #55.5[spill]
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jb ..B1.9
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vzeroupper #93.12
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vxorpd xmm0, xmm0, xmm0 #93.12
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pop r14 #93.12
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pop r13 #93.12
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pop r12 #93.12
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ret #93.12
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.type computeForce,@function
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.size computeForce,.-computeForce
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..LNcomputeForce.0:
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.data
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# -- End computeForce
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.section .rodata, "a"
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.align 64
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.align 64
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.L_2il0floatpacket.2:
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.long 0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000
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.type .L_2il0floatpacket.2,@object
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.size .L_2il0floatpacket.2,64
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.align 64
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.L_2il0floatpacket.4:
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.long 0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000
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.type .L_2il0floatpacket.4,@object
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.size .L_2il0floatpacket.4,64
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.align 64
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.L_2il0floatpacket.6:
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.long 0x00000008,0x00000009,0x0000000a,0x0000000b,0x0000000c,0x0000000d,0x0000000e,0x0000000f,0x00000008,0x00000009,0x0000000a,0x0000000b,0x0000000c,0x0000000d,0x0000000e,0x0000000f
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.type .L_2il0floatpacket.6,@object
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.size .L_2il0floatpacket.6,64
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.align 32
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.L_2il0floatpacket.0:
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.long 0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008
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.type .L_2il0floatpacket.0,@object
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.size .L_2il0floatpacket.0,32
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.align 32
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.L_2il0floatpacket.1:
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.long 0x00000000,0x00000001,0x00000002,0x00000003,0x00000004,0x00000005,0x00000006,0x00000007
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.type .L_2il0floatpacket.1,@object
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.size .L_2il0floatpacket.1,32
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.align 8
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.L_2il0floatpacket.3:
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.long 0x00000000,0x40480000
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.type .L_2il0floatpacket.3,@object
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.size .L_2il0floatpacket.3,8
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.align 8
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.L_2il0floatpacket.5:
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.long 0x00000000,0x3ff00000
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.type .L_2il0floatpacket.5,@object
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.size .L_2il0floatpacket.5,8
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.data
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.section .note.GNU-stack, ""
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# End
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@ -1,7 +1,7 @@
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# Compiler tag (GCC/CLANG/ICC)
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TAG ?= ICC
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TAG ?= CLANG
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# Enable likwid (true or false)
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ENABLE_LIKWID ?= true
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ENABLE_LIKWID ?= false
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# SP or DP
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DATA_TYPE ?= DP
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# AOS or SOA
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@ -9,6 +9,8 @@ DATA_LAYOUT ?= AOS
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# Assembly syntax to generate (ATT/INTEL)
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ASM_SYNTAX ?= ATT
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# Output detailed statistics
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PRINT_STATS ?= true
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# Number of times to run the atoms loop on stubbed variant
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ATOMS_LOOP_RUNS ?= 1
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# Number of times to run the neighbors loop on stubbed variant
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src/force-tracing.c
Normal file
232
src/force-tracing.c
Normal file
@ -0,0 +1,232 @@
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/*
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* =======================================================================================
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*
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* Author: Jan Eitzinger (je), jan.eitzinger@fau.de
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* Copyright (c) 2021 RRZE, University Erlangen-Nuremberg
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*
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* This file is part of MD-Bench.
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*
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* MD-Bench is free software: you can redistribute it and/or modify it
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* under the terms of the GNU Lesser General Public License as published
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* by the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* MD-Bench is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
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* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
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* details.
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*
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* You should have received a copy of the GNU Lesser General Public License along
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* with MD-Bench. If not, see <https://www.gnu.org/licenses/>.
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* =======================================================================================
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*/
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#include <likwid-marker.h>
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#include <timing.h>
|
||||
#include <neighbor.h>
|
||||
#include <parameter.h>
|
||||
#include <atom.h>
|
||||
#include <stats.h>
|
||||
|
||||
#if defined(MEM_TRACER) || defined(INDEX_TRACER)
|
||||
#include <stdio.h>
|
||||
#include <stdlib.h>
|
||||
#endif
|
||||
|
||||
#ifndef VECTOR_WIDTH
|
||||
# define VECTOR_WIDTH 8
|
||||
#endif
|
||||
|
||||
#ifndef TRACER_CONDITION
|
||||
# define TRACER_CONDITION (!(timestep % param->every))
|
||||
#endif
|
||||
|
||||
#ifdef MEM_TRACER
|
||||
# define MEM_TRACER_INIT FILE *mem_tracer_fp; \
|
||||
if(TRACER_CONDITION) { \
|
||||
char mem_tracer_fn[128]; \
|
||||
snprintf(mem_tracer_fn, sizeof mem_tracer_fn, "mem_tracer_%d.out", timestep); \
|
||||
mem_tracer_fp = fopen(mem_tracer_fn, "w");
|
||||
}
|
||||
|
||||
# define MEM_TRACER_END if(TRACER_CONDITION) { fclose(mem_tracer_fp); }
|
||||
# define MEM_TRACE(addr, op) if(TRACER_CONDITION) { fprintf(mem_tracer_fp, "%c: %p\n", op, (void *)(&(addr))); }
|
||||
#else
|
||||
# define MEM_TRACER_INIT
|
||||
# define MEM_TRACER_END
|
||||
# define MEM_TRACE(addr, op)
|
||||
#endif
|
||||
|
||||
#ifdef INDEX_TRACER
|
||||
# define INDEX_TRACER_INIT FILE *index_tracer_fp; \
|
||||
if(TRACER_CONDITION) { \
|
||||
char index_tracer_fn[128]; \
|
||||
snprintf(index_tracer_fn, sizeof index_tracer_fn, "index_tracer_%d.out", timestep); \
|
||||
index_tracer_fp = fopen(index_tracer_fn, "w"); \
|
||||
}
|
||||
|
||||
# define INDEX_TRACER_END if(TRACER_CONDITION) { fclose(index_tracer_fp); }
|
||||
# define INDEX_TRACE_NATOMS(nl, ng, mn) if(TRACER_CONDITION) { fprintf(index_tracer_fp, "N: %d %d %d\n", nl, ng, mn); }
|
||||
# define INDEX_TRACE_ATOM(a) if(TRACER_CONDITION) { fprintf(index_tracer_fp, "A: %d\n", a); }
|
||||
# define INDEX_TRACE(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
fprintf(index_tracer_fp, "I: "); \
|
||||
for(int __j = 0; __j < __e; ++__j) { \
|
||||
fprintf(index_tracer_fp, "%d ", l[__i + __j]); \
|
||||
} \
|
||||
fprintf(index_tracer_fp, "\n"); \
|
||||
} \
|
||||
}
|
||||
|
||||
# define DIST_TRACE_SORT(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
if(__e > 1) { \
|
||||
for(int __j = __i; __j < __i + __e - 1; ++__j) { \
|
||||
for(int __k = __i; __k < __i + __e - (__j - __i) - 1; ++__k) { \
|
||||
if(l[__k] > l[__k + 1]) { \
|
||||
int __t = l[__k]; \
|
||||
l[__k] = l[__k + 1]; \
|
||||
l[__k + 1] = __t; \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
}
|
||||
|
||||
# define DIST_TRACE(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
if(__e > 1) { \
|
||||
fprintf(index_tracer_fp, "D: "); \
|
||||
for(int __j = 0; __j < __e - 1; ++__j) { \
|
||||
int __dist = abs(l[__i + __j + 1] - l[__i + __j]); \
|
||||
fprintf(index_tracer_fp, "%d ", __dist); \
|
||||
} \
|
||||
fprintf(index_tracer_fp, "\n"); \
|
||||
} \
|
||||
} \
|
||||
}
|
||||
#else
|
||||
# define INDEX_TRACER_INIT
|
||||
# define INDEX_TRACER_END
|
||||
# define INDEX_TRACE_NATOMS(nl, ng, mn)
|
||||
# define INDEX_TRACE_ATOM(a)
|
||||
# define INDEX_TRACE(l, e)
|
||||
# define DIST_TRACE_SORT(l, e)
|
||||
# define DIST_TRACE(l, e)
|
||||
#endif
|
||||
|
||||
double computeForceTracing(Parameter *param, Atom *atom, Neighbor *neighbor, Stats *stats, int first_exec, int timestep) {
|
||||
MEM_TRACER_INIT;
|
||||
INDEX_TRACER_INIT;
|
||||
int Nlocal = atom->Nlocal;
|
||||
int* neighs;
|
||||
MD_FLOAT* fx = atom->fx; MD_FLOAT* fy = atom->fy; MD_FLOAT* fz = atom->fz;
|
||||
#ifndef EXPLICIT_TYPES
|
||||
MD_FLOAT cutforcesq = param->cutforce * param->cutforce;
|
||||
MD_FLOAT sigma6 = param->sigma6;
|
||||
MD_FLOAT epsilon = param->epsilon;
|
||||
#endif
|
||||
|
||||
for(int i = 0; i < Nlocal; i++) {
|
||||
fx[i] = 0.0;
|
||||
fy[i] = 0.0;
|
||||
fz[i] = 0.0;
|
||||
}
|
||||
|
||||
INDEX_TRACE_NATOMS(Nlocal, atom->Nghost, neighbor->maxneighs);
|
||||
double S = getTimeStamp();
|
||||
LIKWID_MARKER_START("force");
|
||||
|
||||
for(int na = 0; na < (first_exec ? 1 : ATOMS_LOOP_RUNS); na++) {
|
||||
#pragma omp parallel for
|
||||
for(int i = 0; i < Nlocal; i++) {
|
||||
neighs = &neighbor->neighbors[i * neighbor->maxneighs];
|
||||
int numneighs = neighbor->numneigh[i];
|
||||
MD_FLOAT xtmp = atom_x(i);
|
||||
MD_FLOAT ytmp = atom_y(i);
|
||||
MD_FLOAT ztmp = atom_z(i);
|
||||
MD_FLOAT fix = 0;
|
||||
MD_FLOAT fiy = 0;
|
||||
MD_FLOAT fiz = 0;
|
||||
|
||||
MEM_TRACE(atom_x(i), 'R');
|
||||
MEM_TRACE(atom_y(i), 'R');
|
||||
MEM_TRACE(atom_z(i), 'R');
|
||||
INDEX_TRACE_ATOM(i);
|
||||
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_i = atom->type[i];
|
||||
MEM_TRACE(atom->type(i), 'R');
|
||||
#endif
|
||||
|
||||
#if defined(VARIANT) && VARIANT == stub && defined(NEIGHBORS_LOOP_RUNS) && NEIGHBORS_LOOP_RUNS > 1
|
||||
#define REPEAT_NEIGHBORS_LOOP
|
||||
int nmax = first_exec ? 1 : NEIGHBORS_LOOP_RUNS;
|
||||
for(int nn = 0; nn < (first_exec ? 1 : NEIGHBORS_LOOP_RUNS); nn++) {
|
||||
#endif
|
||||
|
||||
//DIST_TRACE_SORT(neighs, numneighs);
|
||||
INDEX_TRACE(neighs, numneighs);
|
||||
//DIST_TRACE(neighs, numneighs);
|
||||
|
||||
for(int k = 0; k < numneighs; k++) {
|
||||
int j = neighs[k];
|
||||
MD_FLOAT delx = xtmp - atom_x(j);
|
||||
MD_FLOAT dely = ytmp - atom_y(j);
|
||||
MD_FLOAT delz = ztmp - atom_z(j);
|
||||
MD_FLOAT rsq = delx * delx + dely * dely + delz * delz;
|
||||
|
||||
MEM_TRACE(neighs[k], 'R');
|
||||
MEM_TRACE(atom_x(j), 'R');
|
||||
MEM_TRACE(atom_y(j), 'R');
|
||||
MEM_TRACE(atom_z(j), 'R');
|
||||
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_j = atom->type[j];
|
||||
const int type_ij = type_i * atom->ntypes + type_j;
|
||||
const MD_FLOAT cutforcesq = atom->cutforcesq[type_ij];
|
||||
const MD_FLOAT sigma6 = atom->sigma6[type_ij];
|
||||
const MD_FLOAT epsilon = atom->epsilon[type_ij];
|
||||
MEM_TRACE(atom->type(j), 'R');
|
||||
#endif
|
||||
|
||||
if(rsq < cutforcesq) {
|
||||
MD_FLOAT sr2 = 1.0 / rsq;
|
||||
MD_FLOAT sr6 = sr2 * sr2 * sr2 * sigma6;
|
||||
MD_FLOAT force = 48.0 * sr6 * (sr6 - 0.5) * sr2 * epsilon;
|
||||
fix += delx * force;
|
||||
fiy += dely * force;
|
||||
fiz += delz * force;
|
||||
}
|
||||
}
|
||||
|
||||
#ifdef REPEAT_NEIGHBORS_LOOP
|
||||
}
|
||||
#endif
|
||||
|
||||
fx[i] += fix;
|
||||
fy[i] += fiy;
|
||||
fz[i] += fiz;
|
||||
|
||||
addStat(stats->total_force_neighs, numneighs);
|
||||
addStat(stats->total_force_iters, (numneighs + VECTOR_WIDTH - 1) / VECTOR_WIDTH);
|
||||
MEM_TRACE(fx[i], 'R');
|
||||
MEM_TRACE(fx[i], 'W');
|
||||
MEM_TRACE(fy[i], 'R');
|
||||
MEM_TRACE(fy[i], 'W');
|
||||
MEM_TRACE(fz[i], 'R');
|
||||
MEM_TRACE(fz[i], 'W');
|
||||
}
|
||||
}
|
||||
|
||||
LIKWID_MARKER_STOP("force");
|
||||
double E = getTimeStamp();
|
||||
|
||||
INDEX_TRACER_END;
|
||||
MEM_TRACER_END;
|
||||
return E-S;
|
||||
}
|
222
src/force.c
222
src/force.c
@ -26,110 +26,23 @@
|
||||
#include <neighbor.h>
|
||||
#include <parameter.h>
|
||||
#include <atom.h>
|
||||
#include <stats.h>
|
||||
|
||||
#if defined(MEM_TRACER) || defined(INDEX_TRACER)
|
||||
#include <stdio.h>
|
||||
#include <stdlib.h>
|
||||
#endif
|
||||
|
||||
#ifndef VECTOR_WIDTH
|
||||
# define VECTOR_WIDTH 8
|
||||
#endif
|
||||
|
||||
#ifndef TRACER_CONDITION
|
||||
# define TRACER_CONDITION (!(timestep % param->every))
|
||||
#endif
|
||||
|
||||
#ifdef MEM_TRACER
|
||||
# define MEM_TRACER_INIT FILE *mem_tracer_fp; \
|
||||
if(TRACER_CONDITION) { \
|
||||
char mem_tracer_fn[128]; \
|
||||
snprintf(mem_tracer_fn, sizeof mem_tracer_fn, "mem_tracer_%d.out", timestep); \
|
||||
mem_tracer_fp = fopen(mem_tracer_fn, "w");
|
||||
}
|
||||
|
||||
# define MEM_TRACER_END if(TRACER_CONDITION) { fclose(mem_tracer_fp); }
|
||||
# define MEM_TRACE(addr, op) if(TRACER_CONDITION) { fprintf(mem_tracer_fp, "%c: %p\n", op, (void *)(&(addr))); }
|
||||
#else
|
||||
# define MEM_TRACER_INIT
|
||||
# define MEM_TRACER_END
|
||||
# define MEM_TRACE(addr, op)
|
||||
#endif
|
||||
|
||||
#ifdef INDEX_TRACER
|
||||
# define INDEX_TRACER_INIT FILE *index_tracer_fp; \
|
||||
if(TRACER_CONDITION) { \
|
||||
char index_tracer_fn[128]; \
|
||||
snprintf(index_tracer_fn, sizeof index_tracer_fn, "index_tracer_%d.out", timestep); \
|
||||
index_tracer_fp = fopen(index_tracer_fn, "w"); \
|
||||
}
|
||||
|
||||
# define INDEX_TRACER_END if(TRACER_CONDITION) { fclose(index_tracer_fp); }
|
||||
# define INDEX_TRACE_NATOMS(nl, ng, mn) if(TRACER_CONDITION) { fprintf(index_tracer_fp, "N: %d %d %d\n", nl, ng, mn); }
|
||||
# define INDEX_TRACE_ATOM(a) if(TRACER_CONDITION) { fprintf(index_tracer_fp, "A: %d\n", a); }
|
||||
# define INDEX_TRACE(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
fprintf(index_tracer_fp, "I: "); \
|
||||
for(int __j = 0; __j < __e; ++__j) { \
|
||||
fprintf(index_tracer_fp, "%d ", l[__i + __j]); \
|
||||
} \
|
||||
fprintf(index_tracer_fp, "\n"); \
|
||||
} \
|
||||
}
|
||||
|
||||
# define DIST_TRACE_SORT(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
if(__e > 1) { \
|
||||
for(int __j = __i; __j < __i + __e - 1; ++__j) { \
|
||||
for(int __k = __i; __k < __i + __e - (__j - __i) - 1; ++__k) { \
|
||||
if(l[__k] > l[__k + 1]) { \
|
||||
int __t = l[__k]; \
|
||||
l[__k] = l[__k + 1]; \
|
||||
l[__k + 1] = __t; \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
} \
|
||||
}
|
||||
|
||||
# define DIST_TRACE(l, e) if(TRACER_CONDITION) { \
|
||||
for(int __i = 0; __i < (e); __i += VECTOR_WIDTH) { \
|
||||
int __e = (((e) - __i) < VECTOR_WIDTH) ? ((e) - __i) : VECTOR_WIDTH; \
|
||||
if(__e > 1) { \
|
||||
fprintf(index_tracer_fp, "D: "); \
|
||||
for(int __j = 0; __j < __e - 1; ++__j) { \
|
||||
int __dist = abs(l[__i + __j + 1] - l[__i + __j]); \
|
||||
fprintf(index_tracer_fp, "%d ", __dist); \
|
||||
} \
|
||||
fprintf(index_tracer_fp, "\n"); \
|
||||
} \
|
||||
} \
|
||||
}
|
||||
#else
|
||||
# define INDEX_TRACER_INIT
|
||||
# define INDEX_TRACER_END
|
||||
# define INDEX_TRACE_NATOMS(nl, ng, mn)
|
||||
# define INDEX_TRACE_ATOM(a)
|
||||
# define INDEX_TRACE(l, e)
|
||||
# define DIST_TRACE_SORT(l, e)
|
||||
# define DIST_TRACE(l, e)
|
||||
#endif
|
||||
|
||||
double computeForce(Parameter *param, Atom *atom, Neighbor *neighbor, Stats *stats, int first_exec, int timestep) {
|
||||
MEM_TRACER_INIT;
|
||||
INDEX_TRACER_INIT;
|
||||
double computeForce(
|
||||
Parameter *param,
|
||||
Atom *atom,
|
||||
Neighbor *neighbor
|
||||
)
|
||||
{
|
||||
int Nlocal = atom->Nlocal;
|
||||
int* neighs;
|
||||
MD_FLOAT* fx = atom->fx; MD_FLOAT* fy = atom->fy; MD_FLOAT* fz = atom->fz;
|
||||
#ifndef EXPLICIT_TYPES
|
||||
MD_FLOAT* fx = atom->fx;
|
||||
MD_FLOAT* fy = atom->fy;
|
||||
MD_FLOAT* fz = atom->fz;
|
||||
#ifndef EXPLICIT_TYPES
|
||||
MD_FLOAT cutforcesq = param->cutforce * param->cutforce;
|
||||
MD_FLOAT sigma6 = param->sigma6;
|
||||
MD_FLOAT epsilon = param->epsilon;
|
||||
#endif
|
||||
#endif
|
||||
|
||||
for(int i = 0; i < Nlocal; i++) {
|
||||
fx[i] = 0.0;
|
||||
@ -137,96 +50,57 @@ double computeForce(Parameter *param, Atom *atom, Neighbor *neighbor, Stats *sta
|
||||
fz[i] = 0.0;
|
||||
}
|
||||
|
||||
INDEX_TRACE_NATOMS(Nlocal, atom->Nghost, neighbor->maxneighs);
|
||||
double S = getTimeStamp();
|
||||
LIKWID_MARKER_START("force");
|
||||
|
||||
for(int na = 0; na < (first_exec ? 1 : ATOMS_LOOP_RUNS); na++) {
|
||||
#pragma omp parallel for
|
||||
for(int i = 0; i < Nlocal; i++) {
|
||||
neighs = &neighbor->neighbors[i * neighbor->maxneighs];
|
||||
int numneighs = neighbor->numneigh[i];
|
||||
MD_FLOAT xtmp = atom_x(i);
|
||||
MD_FLOAT ytmp = atom_y(i);
|
||||
MD_FLOAT ztmp = atom_z(i);
|
||||
MD_FLOAT fix = 0;
|
||||
MD_FLOAT fiy = 0;
|
||||
MD_FLOAT fiz = 0;
|
||||
#pragma omp parallel for
|
||||
for(int i = 0; i < Nlocal; i++) {
|
||||
neighs = &neighbor->neighbors[i * neighbor->maxneighs];
|
||||
int numneighs = neighbor->numneigh[i];
|
||||
MD_FLOAT xtmp = atom_x(i);
|
||||
MD_FLOAT ytmp = atom_y(i);
|
||||
MD_FLOAT ztmp = atom_z(i);
|
||||
MD_FLOAT fix = 0;
|
||||
MD_FLOAT fiy = 0;
|
||||
MD_FLOAT fiz = 0;
|
||||
|
||||
MEM_TRACE(atom_x(i), 'R');
|
||||
MEM_TRACE(atom_y(i), 'R');
|
||||
MEM_TRACE(atom_z(i), 'R');
|
||||
INDEX_TRACE_ATOM(i);
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_i = atom->type[i];
|
||||
#endif
|
||||
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_i = atom->type[i];
|
||||
MEM_TRACE(atom->type(i), 'R');
|
||||
#endif
|
||||
|
||||
#if defined(VARIANT) && VARIANT == stub && defined(NEIGHBORS_LOOP_RUNS) && NEIGHBORS_LOOP_RUNS > 1
|
||||
#define REPEAT_NEIGHBORS_LOOP
|
||||
int nmax = first_exec ? 1 : NEIGHBORS_LOOP_RUNS;
|
||||
for(int nn = 0; nn < (first_exec ? 1 : NEIGHBORS_LOOP_RUNS); nn++) {
|
||||
#endif
|
||||
for(int k = 0; k < numneighs; k++) {
|
||||
int j = neighs[k];
|
||||
MD_FLOAT delx = xtmp - atom_x(j);
|
||||
MD_FLOAT dely = ytmp - atom_y(j);
|
||||
MD_FLOAT delz = ztmp - atom_z(j);
|
||||
MD_FLOAT rsq = delx * delx + dely * dely + delz * delz;
|
||||
|
||||
//DIST_TRACE_SORT(neighs, numneighs);
|
||||
INDEX_TRACE(neighs, numneighs);
|
||||
//DIST_TRACE(neighs, numneighs);
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_j = atom->type[j];
|
||||
const int type_ij = type_i * atom->ntypes + type_j;
|
||||
const MD_FLOAT cutforcesq = atom->cutforcesq[type_ij];
|
||||
const MD_FLOAT sigma6 = atom->sigma6[type_ij];
|
||||
const MD_FLOAT epsilon = atom->epsilon[type_ij];
|
||||
#endif
|
||||
|
||||
for(int k = 0; k < numneighs; k++) {
|
||||
int j = neighs[k];
|
||||
MD_FLOAT delx = xtmp - atom_x(j);
|
||||
MD_FLOAT dely = ytmp - atom_y(j);
|
||||
MD_FLOAT delz = ztmp - atom_z(j);
|
||||
MD_FLOAT rsq = delx * delx + dely * dely + delz * delz;
|
||||
|
||||
MEM_TRACE(neighs[k], 'R');
|
||||
MEM_TRACE(atom_x(j), 'R');
|
||||
MEM_TRACE(atom_y(j), 'R');
|
||||
MEM_TRACE(atom_z(j), 'R');
|
||||
|
||||
#ifdef EXPLICIT_TYPES
|
||||
const int type_j = atom->type[j];
|
||||
const int type_ij = type_i * atom->ntypes + type_j;
|
||||
const MD_FLOAT cutforcesq = atom->cutforcesq[type_ij];
|
||||
const MD_FLOAT sigma6 = atom->sigma6[type_ij];
|
||||
const MD_FLOAT epsilon = atom->epsilon[type_ij];
|
||||
MEM_TRACE(atom->type(j), 'R');
|
||||
#endif
|
||||
|
||||
if(rsq < cutforcesq) {
|
||||
MD_FLOAT sr2 = 1.0 / rsq;
|
||||
MD_FLOAT sr6 = sr2 * sr2 * sr2 * sigma6;
|
||||
MD_FLOAT force = 48.0 * sr6 * (sr6 - 0.5) * sr2 * epsilon;
|
||||
fix += delx * force;
|
||||
fiy += dely * force;
|
||||
fiz += delz * force;
|
||||
}
|
||||
}
|
||||
|
||||
#ifdef REPEAT_NEIGHBORS_LOOP
|
||||
if(rsq < cutforcesq) {
|
||||
MD_FLOAT sr2 = 1.0 / rsq;
|
||||
MD_FLOAT sr6 = sr2 * sr2 * sr2 * sigma6;
|
||||
MD_FLOAT force = 48.0 * sr6 * (sr6 - 0.5) * sr2 * epsilon;
|
||||
fix += delx * force;
|
||||
fiy += dely * force;
|
||||
fiz += delz * force;
|
||||
}
|
||||
#endif
|
||||
|
||||
fx[i] += fix;
|
||||
fy[i] += fiy;
|
||||
fz[i] += fiz;
|
||||
|
||||
addStat(stats->total_force_neighs, numneighs);
|
||||
addStat(stats->total_force_iters, (numneighs + VECTOR_WIDTH - 1) / VECTOR_WIDTH);
|
||||
MEM_TRACE(fx[i], 'R');
|
||||
MEM_TRACE(fx[i], 'W');
|
||||
MEM_TRACE(fy[i], 'R');
|
||||
MEM_TRACE(fy[i], 'W');
|
||||
MEM_TRACE(fz[i], 'R');
|
||||
MEM_TRACE(fz[i], 'W');
|
||||
}
|
||||
|
||||
fx[i] += fix;
|
||||
fy[i] += fiy;
|
||||
fz[i] += fiz;
|
||||
}
|
||||
|
||||
LIKWID_MARKER_STOP("force");
|
||||
double E = getTimeStamp();
|
||||
|
||||
INDEX_TRACER_END;
|
||||
MEM_TRACER_END;
|
||||
return E-S;
|
||||
}
|
||||
|
17
src/main.c
17
src/main.c
@ -42,7 +42,8 @@
|
||||
|
||||
#define HLINE "----------------------------------------------------------------------------\n"
|
||||
|
||||
extern double computeForce(Parameter*, Atom*, Neighbor*, Stats*, int, int);
|
||||
extern double computeForce(Parameter*, Atom*, Neighbor*);
|
||||
extern double computeForceTracing(Parameter*, Atom*, Neighbor*, Stats*, int, int);
|
||||
|
||||
void init(Parameter *param)
|
||||
{
|
||||
@ -211,7 +212,11 @@ int main (int argc, char** argv)
|
||||
|
||||
setup(¶m, &atom, &neighbor, &stats);
|
||||
computeThermo(0, ¶m, &atom);
|
||||
computeForce(¶m, &atom, &neighbor, &stats, 1, 0);
|
||||
#if defined(MEM_TRACER) || defined(INDEX_TRACER) || defined(PRINT_STATS)
|
||||
computeForceTracing(¶m, &atom, &neighbor, &stats, 1, 0);
|
||||
#else
|
||||
computeForce(¶m, &atom, &neighbor);
|
||||
#endif
|
||||
|
||||
timer[FORCE] = 0.0;
|
||||
timer[NEIGH] = 0.0;
|
||||
@ -226,7 +231,11 @@ int main (int argc, char** argv)
|
||||
timer[NEIGH] += reneighbour(¶m, &atom, &neighbor);
|
||||
}
|
||||
|
||||
timer[FORCE] += computeForce(¶m, &atom, &neighbor, &stats, 0, n + 1);
|
||||
#if defined(MEM_TRACER) || defined(INDEX_TRACER) || defined(PRINT_STATS)
|
||||
timer[FORCE] += computeForceTracing(¶m, &atom, &neighbor, &stats, 0, n + 1);
|
||||
#else
|
||||
timer[FORCE] += computeForce(¶m, &atom, &neighbor);
|
||||
#endif
|
||||
finalIntegrate(¶m, &atom);
|
||||
|
||||
if(!((n + 1) % param.nstat) && (n+1) < param.ntimes) {
|
||||
@ -251,7 +260,9 @@ int main (int argc, char** argv)
|
||||
printf(HLINE);
|
||||
printf("Performance: %.2f million atom updates per second\n",
|
||||
1e-6 * (double) atom.Natoms * param.ntimes / timer[TOTAL]);
|
||||
#ifdef PRINT_STATS
|
||||
displayStatistics(&atom, ¶m, &stats, timer);
|
||||
#endif
|
||||
LIKWID_MARKER_CLOSE;
|
||||
return EXIT_SUCCESS;
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user